CN219116719U

CN219116719U - Non-woven fabric winding device

Info

Publication number: CN219116719U
Application number: CN202223110282.XU
Authority: CN
Inventors: 陈展哲; 林友华; 林友快
Original assignee: Zhejiang Huahao Holding Co ltd
Current assignee: Zhejiang Huahao Holding Co ltd
Priority date: 2022-11-22
Filing date: 2022-11-22
Publication date: 2023-06-02
Anticipated expiration: 2032-11-22

Abstract

The utility model discloses a non-woven fabric winding device which is characterized by comprising a base station, wherein a winding mechanism is arranged at one side outside the base station; a winding paper tube can be placed on a winding roller on the winding mechanism to wind the non-woven fabrics; the base station is provided with a conveying mechanism, the conveying mechanism can carry out preliminary flattening on the dry non-woven fabrics, and water squeezing operation can be carried out on the wet non-woven fabrics; a drying box is arranged on the base station; the utility model has the advantages that the wet non-woven fabrics extruded by the conveying roller can be dried by the drying box, the follow-up winding is convenient, and the telescopic rod on the telescopic motor in the flattening mechanism can be stretched and retracted, so that the distance between the upper flattening block and the lower flattening plate can be controlled, and the non-woven fabrics with different thicknesses can be flattened.

Description

Non-woven fabric winding device

Technical Field

The utility model relates to a winding device, in particular to a non-woven fabric winding device.

Background

The non-woven fabric is a fabric formed by spinning the non-woven fabric, and is formed by only orientating or randomly arranging textile short fibers or filaments to form a fiber net structure, then reinforcing the fiber net structure by adopting mechanical, thermal bonding or chemical methods, and the non-woven fabric has the characteristics of short process flow, high production rate, high yield, low cost, wide application range, multiple raw material sources and the like, is deeply favored by consumers, and is rolled into a cloth roll in the non-woven fabric processing process, so that subsequent storage and transportation are convenient, for example, the application number is CN 202123028359.4. However, the device is not attractive for the wet non-woven fabrics before rolling, and the device can roll the non-woven fabrics only by placing the wet non-woven fabrics on a drying device for drying during rolling, so that time is wasted and rolling efficiency is reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides the non-woven fabric winding device which has the effect of improving the non-woven fabric winding efficiency.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a non-woven fabrics coiling mechanism, includes base station, its characterized in that: a winding mechanism is arranged at one side outside the base station; the base station is provided with a flattening mechanism; a drying mechanism is arranged on one side of the flattening mechanism; one side of the drying mechanism is provided with a conveying mechanism; the winding mechanism comprises a plurality of winding struts, winding rollers, a winding motor and a winding belt; the winding support column is respectively provided with a roller placing groove and a roller placing hole; a plurality of first bulges are arranged on two sides of the wind-up roll; the first bulges are respectively arranged in the roller placing holes and the roller placing grooves; a winding motor is fixedly arranged on the winding support column; the winding motor is connected with the first bulge through a winding belt; the winding support column is connected with the base station through a plurality of connecting blocks.

The utility model is further provided with: the conveying mechanism comprises a conveying table, a plurality of conveying rollers, a plurality of conveying motors and a plurality of conveying belts; the conveying table is arranged on the base table; a plurality of holes are formed in the conveying table; a plurality of second bulges are arranged on two sides of the conveying roller; the second bulge is arranged in the hole; a plurality of conveying motors are arranged on the side wall of the conveying table; the conveying motor is connected with the second protrusion through a plurality of conveying belts.

The utility model is further provided with: the drying mechanism comprises a drying box, a plurality of drying columns and fixed rollers; the drying box is provided with a feed inlet and a discharge outlet; a plurality of placing lines are respectively arranged in the drying box; a plurality of heating wires are arranged on the placing wire.

The utility model is further provided with: a plurality of drying columns are arranged on one side of the drying box; a plurality of drying grooves are formed in the drying column; a plurality of third bulges are arranged on two sides of the fixed roller; the fixed roller is fixedly arranged in the drying groove through a third bulge.

The utility model is further provided with: the flattening mechanism comprises a flattening bracket, an upper flattening block, a plurality of lower flattening plates and a plurality of flattening rollers; an upper flattening block is arranged in the flattening bracket; a lower pressing plate is fixedly arranged below the upper pressing block; a plurality of first block holes are formed in the upper pressing flat block; a plurality of fourth bulges are arranged on two sides of the flattening roller; the flattening roller is arranged in the first block hole through a fourth bulge; a flattening motor is fixedly arranged on the upper flattening block; and the flattening motor is connected with the fourth bulge through an overpressure flattening belt.

The utility model is further provided with: a plurality of second plate holes are formed in the lower pressing plate; the flattening roller is arranged in the second plate hole through a fourth bulge; a flattening motor is fixedly arranged on the lower flattening plate; the flattening motor is connected with the fourth bulge through a flattening belt.

The utility model is further provided with: the flattening bracket is provided with bracket holes; a plurality of connecting sheets are fixedly arranged on the flattening bracket; the connecting sheet is fixedly provided with a telescopic motor; the telescopic motor is provided with a telescopic rod; an iron bar is fixedly arranged on the telescopic rod; the iron strip is fixedly connected with the upper flattening block.

The utility model is further provided with: a plurality of supporting feet are fixedly arranged below the base station; the base is fixedly provided with a water baffle.

In summary, the utility model has the following beneficial effects: a conveying table is arranged on the base table; a conveying roller is arranged in the conveying table, the non-woven fabric enters the base table through the conveying roller, water in the non-woven fabric is extruded out of the non-woven fabric through the conveying roller for wet non-woven fabric, and preliminary flattening can be carried out for dry non-woven fabric; a drying box is arranged on the base station; the heating wires are arranged in the drying box, so that the wet non-woven fabrics extruded by the conveying rollers can be heated to dry the extruded non-woven fabrics; the heating wire can be turned off for dry non-woven fabrics; the non-woven fabrics pass through winding mechanism rolling after flattening the mechanism that flattens, and this device can flatten the back rolling of dry non-woven fabrics can also carry out squeezing drying with wet non-woven fabrics and carry out the rolling again, has improved rolling efficiency for some devices that only have stoving or rolling.

Drawings

FIG. 1 is a schematic diagram of the structure of the present embodiment;

FIG. 2 is an exploded view of the winding mechanism of the present embodiment;

FIG. 3 is a schematic view of the inside of the drying box according to the present embodiment;

FIG. 4 is an exploded view of the flattening mechanism of the present embodiment;

FIG. 5 is an exploded view of the transfer mechanism of the present embodiment;

fig. 6 is a schematic diagram of a drying column and a fixed roller according to the embodiment.

Reference numerals: 1. a base station; 2. winding the support column; 3. a wind-up roll; 4. a winding motor; 5. winding a belt; 6. a roll placing groove; 7. a roller release hole; 8. a first protrusion; 9. a connecting block; 10. a transfer station; 11. a conveying roller; 12. a conveying motor; 13. a conveyor belt; 14. a hole; 15. a second protrusion; 16. a drying box; 17. a drying column; 18. a fixed roller; 19. a feed inlet; 20. a discharge port; 21. placing a wire; 22. a heating wire; 23. a drying tank; 24. a third protrusion; 25. flattening the bracket; 26. pressing a flat block; 27. pressing down a flat plate; 28. a flattening roller; 29. a first block hole; 30. a fourth protrusion; 31. a flattening motor; 32. flattening the belt; 33. a second plate hole; 34. a bracket hole; 35. a connecting sheet; 36. a telescopic motor; 37. a telescopic rod; 38. iron bars; 39. supporting feet; 40. and a water baffle.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

The embodiment discloses a non-woven fabric winding device, which has the effect of improving winding efficiency as shown in fig. 1 to 6, and comprises a base station 1; a winding mechanism is arranged at one side outside the base station 1; a flattening mechanism is arranged on the base station 1; a drying mechanism is arranged on one side of the flattening mechanism; one side of the drying mechanism is provided with a conveying mechanism; the winding mechanism comprises a winding roller 3, a winding motor 4, a winding belt 5 and two winding struts 2; the winding roller 3 and the winding support column 2 are made of iron; the winding support column 2 is respectively provided with a roller placing groove 6 and a roller placing hole 7; two first bulges 8 are arranged on two sides of the wind-up roll 3; the first bulge 8 is connected with the wind-up roll 3 in a welding mode, and the first bulge 8 is made of iron; the first bulges 8 are respectively arranged in the roller placing holes 7 and the roller placing grooves 6 so that the winding roller 3 is arranged on the winding support column 2; a winding motor 4 is welded on the winding support column 2; the winding motor 4 is connected with the first bulge 8 through a winding belt 5; the winding support column 2 is connected with the base station 1 through two connecting blocks 9; the connecting block 9 is made of iron.

By adopting the technical scheme: a winding paper tube for winding the non-woven fabrics can be placed on the winding roller 3, so that the non-woven fabrics are wound on the winding paper tube; the first bulges 8 at the two ends of the winding roller 3 can be arranged in the winding support column 2 after one end of the first bulges is arranged in the other end of the winding hole 7 and then is arranged in the winding groove 6; and after the winding motor 4 is started, the winding belt 5 drives the winding roller 3 to rotate so as to wind the non-woven fabric.

The conveying mechanism comprises a conveying table 10, two conveying rollers 11, two conveying motors 12 and two conveying belts 13; the conveying table 10 is welded on the base table 1; the conveying table 10 and the conveying roller 11 are made of iron; four holes 14 are formed in the conveying table 10, namely two holes 14 are formed in each side wall of the conveying table 10; four second protrusions 15 are arranged on two sides of the conveying roller 11, namely two second protrusions 15 are arranged on two sides of each conveying roller 11, and the second protrusions 15 are made of iron and are arranged on two sides of the conveying roller 11 in a welding mode; the second protrusion 15 is disposed in the hole 14, so that the conveying roller 11 is disposed in the hole 14; two conveying motors 12 are welded on the side wall of the conveying table 10; the conveyor motor 12 is connected to the second projection 15 by two conveyor belts 13.

By adopting the technical scheme: after the two conveying motors 12 are started, the two conveying rollers 11 are driven to rotate through the two conveying belts 13 respectively, so that the non-woven fabrics pass through between the two conveying rollers 11, the dried non-woven fabrics can be primarily flattened, and the wet non-woven fabrics can be subjected to water squeezing operation.

The drying mechanism comprises a drying box 16, two drying columns 17 and a fixed roller 18; the drying box 16 is provided with a feed inlet 19 and a discharge outlet 20, and the non-woven fabrics enter the drying box 16 from the feed inlet 19 and leave the drying box 16 from the discharge outlet 20; two placing lines 21 are respectively welded in the drying box 16; the placing line 21 is made of iron and is arranged at two sides of the discharge hole 20 and the feed hole 19; two heating wires 22 are arranged on the placing wire 21.

By adopting the technical scheme: the heater wire 22 in the drying box 16 can dry the wet non-woven fabric squeezed with water, and the dry non-woven fabric passes through the drying box 16 to stop the heater wire 22 from being started to pass through the dry non-woven fabric.

Two drying columns 17 are arranged on one side of the drying box 16; two drying grooves 23 are formed in the drying column 17; third bulges 24 are arranged on two sides of the fixed roller 18; the fixed roller 18 is welded in the drying groove 23 through a third bulge 24; the drying column 17, the fixed roller 18 and the third protrusion 24 are all made of iron.

By adopting the technical scheme: the fixed roller 18 is welded and arranged in the drying groove 23 through the third bulge 24 so that the fixed roller 18 is arranged on the drying column 17; the fixed roller 18 is not rotatable, and the fixed roller 18 plays a supporting role, so that the non-woven fabrics leaving the drying box 16 through the discharge hole 20 of the drying box 16 can be stably fed into the flattening mechanism.

The flattening mechanism comprises a flattening bracket 25, an upper flattening block 26, two lower flattening plates 27 and two flattening rollers 28; the flattening bracket 25, the upper flattening block 26, the two lower flattening plates 27 and the two flattening rollers 28 are made of iron; an upper flattening block 26 is arranged in the flattening bracket 25; a lower pressing plate 27 is arranged below the upper pressing block 26; the lower pressing plate 27 is welded on the base 1; the upper flattening block 26 is provided with two first block holes 29; two fourth protrusions 30 are arranged on two sides of the flattening roller 28; the flattening roller 28 is arranged in the first block hole 29 by a fourth protrusion 30; a flattening motor 31 is welded on the upper flattening block 26; the flattening motor 31 is connected to the fourth protrusion 30 by an overpressure flattening belt 32.

Two second plate holes 33 are formed in the lower pressing plate 27, namely, one second plate hole 33 is formed in each lower pressing plate 27; the flattening roller 28 is arranged in the second plate hole 33 through the fourth bulge 30; a flattening motor 31 is welded on the lower flattening plate 27; the flattening motor 31 is connected to the fourth protrusion 30 by a flattening belt 32.

By adopting the technical scheme: the flattening motor 31 welded on the upper flattening block 26 drives the flattening rollers 28 in the upper flattening block 26 to rotate through the flattening belt 32 after being started, and the flattening motor 31 welded on the lower flattening plate 27 drives the flattening rollers 28 between the lower flattening plates 27 to rotate through the flattening belt 32 after being started, so that the non-woven fabrics are flattened further for subsequent winding.

The flattening bracket 25 is provided with a bracket hole 34; the bracket holes 34 penetrate through the flattening bracket 25; two connecting pieces 35 are welded on the flattening bracket 25; a telescopic motor 36 is welded on the connecting sheet 35; the telescopic motor 36 is provided with a telescopic rod 37, namely the telescopic rod 37 is a telescopic motor 36; an iron bar 38 is welded on the telescopic rod 37; the iron bar 38 penetrates the bracket hole 34; the iron bar 38 is welded to the upper platen block 26.

By adopting the technical scheme: the connecting sheet 35 is respectively connected with the flattening bracket 25 and the telescopic motor 36, so that the telescopic motor 36 is firmly arranged above the flattening bracket 25; the expansion rod 37 on the expansion motor 36 is welded with the iron bar 38 and the iron bar 38 is welded with the upper flattening block 26, so that the expansion and retraction of the expansion rod 37 on the expansion motor 36 can control the distance between the upper flattening block 26 and the lower flattening plate 27 to perform flattening operation on non-woven fabrics with different thicknesses, the distance between the upper flattening block 26 and the lower flattening plate 27 can be increased for thicker non-woven fabrics, and the distance between the upper flattening block 26 and the lower flattening plate 27 can be reduced for thinner non-woven fabrics.

Four supporting feet 39 are welded below the base 1; a water baffle 40 is welded on the base 1; the supporting legs 39 and the water baffle 40 are made of iron.

By adopting the technical scheme: the supporting leg 39 supports the base 1 to stabilize the structure of the base 1, and the water blocking plate 40 plays a role in preventing water from flowing to the drying mechanism and the flattening mechanism for the wet non-woven fabric extruded by the conveying roller 11.

In summary, the utility model has the following beneficial effects: the base station 1 is provided with a conveying station 10; a conveying roller 11 is arranged in the conveying table 10, the non-woven fabric is enabled to enter the base table 1 through the conveying roller 11, water in the non-woven fabric is extruded out of the non-woven fabric through the conveying roller 11 when the non-woven fabric is wet, and preliminary flattening can be carried out when the non-woven fabric is dry; a drying box 16 is arranged on the base station 1; the heating wire 22 is arranged in the drying box 16, and the heating wire 22 can be heated for the wet non-woven fabric extruded by the conveying roller 11 to dry the extruded non-woven fabric; the heating wire 22 can be turned off for a dry nonwoven; the non-woven fabrics pass through winding mechanism rolling after flattening the mechanism that flattens, and this device can flatten the back rolling of dry non-woven fabrics can also carry out squeezing drying with wet non-woven fabrics and carry out the rolling again, has improved rolling efficiency for some devices that only have stoving or rolling.

The above embodiments are only preferred embodiments of the present utility model, and are not intended to limit the present utility model, and any modifications, equivalent substitutions, improvements, etc. within the design concept of the present utility model should be included in the scope of the present utility model.

Claims

1. The utility model provides a non-woven fabrics coiling mechanism, includes base station (1), its characterized in that: a winding mechanism is arranged at one side outside the base station (1); a flattening mechanism is arranged on the base station (1); a drying mechanism is arranged on one side of the flattening mechanism; one side of the drying mechanism is provided with a conveying mechanism; the winding mechanism comprises a plurality of winding struts (2), winding rollers (3), a winding motor (4) and a winding belt (5); the winding support column (2) is respectively provided with a roller releasing groove (6) and a roller releasing hole (7); a plurality of first bulges (8) are arranged on two sides of the wind-up roll (3); the first bulge (8) is respectively arranged in the roller placing hole (7) and the roller placing groove (6); a winding motor (4) is fixedly arranged on the winding support column (2); the winding motor (4) is connected with the first bulge (8) through a winding belt (5); the winding support column (2) is connected with the base station (1) through a plurality of connecting blocks (9).

2. The nonwoven fabric winding device according to claim 1, wherein: the conveying mechanism comprises a conveying table (10), a plurality of conveying rollers (11), a plurality of conveying motors (12) and a plurality of conveying belts (13); the conveying table (10) is arranged on the base table (1); a plurality of holes (14) are formed in the conveying table (10); a plurality of second bulges (15) are arranged on two sides of the conveying roller (11); the second bulge is arranged in the hole (14); a plurality of conveying motors (12) are arranged on the side wall of the conveying table (10); the conveying motor (12) is connected with the second bulge (15) through a plurality of conveying belts (13).

3. The nonwoven fabric winding device according to claim 1, wherein: the drying mechanism comprises a drying box (16), a plurality of drying columns (17) and a fixed roller (18); a feed inlet (19) and a discharge outlet (20) are formed in the drying box (16); a plurality of placing lines (21) are respectively arranged in the drying box (16); a plurality of heating wires (22) are arranged on the placing wire (21).

4. A nonwoven fabric winding device according to claim 3, wherein: a plurality of drying columns (17) are arranged on one side of the drying box (16); a plurality of drying grooves (23) are formed in the drying column (17); a plurality of third bulges (24) are arranged on two sides of the fixed roller (18); the fixed roller (18) is fixedly arranged in the drying groove (23) through a third bulge (24).

5. The nonwoven fabric winding device according to claim 1, wherein: the flattening mechanism comprises a flattening bracket (25), an upper flattening block (26), a plurality of lower flattening plates (27) and a plurality of flattening rollers (28); an upper flattening block (26) is arranged in the flattening bracket (25); a lower pressing plate (27) is fixedly arranged below the upper pressing block (26); a plurality of first block holes (29) are formed in the upper flattening block (26); the two sides of the flattening roller (28) are provided with a plurality of fourth bulges (30); the flattening roller (28) is arranged in the first block hole (29) through a fourth bulge (30); a flattening motor (31) is fixedly arranged on the upper flattening block (26); the flattening motor (31) is connected with the fourth bulge (30) by an overpressure flattening belt (32).

6. The nonwoven fabric winding device according to claim 5, wherein: a plurality of second plate holes (33) are formed in the lower pressing plate (27); the flattening roller (28) is arranged in the second plate hole (33) through a fourth bulge (30); a flattening motor (31) is fixedly arranged on the lower flattening plate (27); the flattening motor (31) is connected with the fourth bulge (30) through a flattening belt (32).

7. The nonwoven fabric winding device according to claim 5, wherein: a bracket hole (34) is formed in the flattening bracket (25); a plurality of connecting sheets (35) are fixedly arranged on the flattening bracket (25); a telescopic motor (36) is fixedly arranged on the connecting sheet (35); a telescopic rod (37) is arranged on the telescopic motor (36); an iron bar (38) is fixedly arranged on the telescopic rod (37); the iron bar (38) is fixedly connected with the upper flattening block (26).

8. The nonwoven fabric winding device according to claim 1, wherein: a plurality of supporting feet (39) are fixedly arranged below the base station (1); a water baffle (40) is fixedly arranged on the base (1).